In a first, scientists have developed a technology to print high-resolution 3D microstructures using MXene, a two-dimensional ...

Researchers have developed an automated 3D printing method that can produce multicolor 3D microstructures using different materials. The new method could be used to make a variety of optical ...

The field of tissue engineering aims to repair and regenerate damaged organs or tissues using ex vivo tissue constructs. A key challenge lies in the design and fabrication of scaffolds that facilitate ...

New Nanoscribe printing material is designed to print filigree and low-fluorescent 3D microarchitectures for tissue engineering Nanoscribe presents the new IP-Visio printing material for life science ...

A recent article published in PubMed describes an internal pneumatic shuttering method designed to improve aerosol printing (AP) for the fabrication of three-dimensional (3D) microstructures. The ...

Researchers have developed a binder-free 3D printing method for MXene, enabling high-resolution microstructures with enhanced conductivity and electromagnetic shielding. MXene, first discovered in the ...

Varying lattice properties such as element diameter and spacing (A), cross-sectional geometry and arrangement (B), and lattice rotation (C), can affect the stiffness profiles of lattice ...